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Mammalia, Metatheria, Sparassodonta) Sebastian Echarri1, Marcos D

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Mammalia, Metatheria, Sparassodonta) Sebastian Echarri1, Marcos D Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 106, 277–288, 2017 Mandible morphology and diet of the South American extinct metatherian predators (Mammalia, Metatheria, Sparassodonta) Sebastian Echarri1, Marcos D. Ercoli2, M. Amelia Chemisquy3, Guillermo Turazzini4 and Francisco J. Prevosti3,* 1 Divisio´n Mastozoologı´a, Museo Argentino de Ciencias Naturales ‘‘Bernardino Rivadavia’’ (CONICET), Av. A´ ngel Gallardo 470, 1405, Ciudad Auto´noma de Buenos Aires, Argentina. Email: [email protected] 2 Instituto de Ecorregiones Andinas (INECOA), Universidad Nacional de Jujuy, CONICET, IdGyM, Av. Bolivia 1661, 4600 San Salvador de Jujuy, Jujuy, Argentina. Email: [email protected] 3 Centro Regional de Investigaciones Cientı´ficas y Transferencia Tecnolo´gica de La Rioja (CRILAR), Provincia de La Rioja, UNLaR, UNCa, SEGEMAR, CONICET, Entre Rı´os y Mendoza s.n., CP 5301, Anillaco, La Rioja, Argentina. Emails: [email protected]; *[email protected] 4 Departamento de Ciencias Geolo´gicas, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Intendente Gu¨iraldes 2160, Ciudad Universitaria, 1428, Ciudad Auto´noma de Buenos Aires, Argentina. Email: [email protected] *Corresponding author ABSTRACT: Sparassodonta is a diverse group of extinct metatherian predators that include forms with diets ranging from omnivores to hypercarnivores, including potential bone-crushers and sabre-tooth specialised species. Most of the previous dietary studies on the group were based on qualitative approaches or dental morphometric indexes and/or bite force estimations. In this study, we explore the evolution of mandible shape and diet of Sparassodonta in a comparative phyloge- netic framework, using geometric morphometric tools and allometric and discriminant analyses. We analysed the mandible shape of 142 extant species of marsupials and placental carnivores, and 15 fossil sparassodont species. We found that the relationship between shape and size of the mandible is strongly structured by phylogeny, where the more derived borhyaenoids tend to possess stronger and larger mandibles. Derived borhyaenoid sparassodonts and basal borhyaenoids were classified as hypercarnivores (with short and robust mandibular body). Hathliacynid were classified as mesocarnivores or as hypercarnivores, but with lower probabilities and less specialised morphol- ogies (with a long and slender mandible). Although dental morphology suggests that most of the species of Sparassodonta would have been hypercarnivores, the robustness of the mandible seems to be informative regarding the prey size and degree of specialisation. The relationship between mandi- bular size and shape, and talonid/trigonid relative size, is strongly influenced by the phylogenetic legacy, suggesting that ecological factors could have influenced the evolution of the sparassodonts. KEY WORDS: Borhyaenoidea, evolutionary constraints, geometric morphometrics, Hathliacynidae, palaeoecology Sparassodonta is a monophyletic group, basal to the crown donta had a wide range of body sizes and locomotor habits, group Marsupialia (Forasiepi 2009), which includes more from the scansorial opossum-like Pseudonotictis pusillus of than 50 species of extinct marsupial predators. They inhabited about 1 kg, to the large terrestrial Thylacosmilus atrox of near the South American continent during most of the Cenozoic 100 kg (Wroe et al. 1999, 2003, 2004, 2013; Argot 2003a, b, (e.g., Marshall 1978; Forasiepi 2009; Prevosti et al. 2013), 2004a, b, c; Vizcaı´no et al. 2010; Ercoli & Prevosti 2011; and shared the predatory guild with phorusrhacoid ‘terror’ Ercoli et al. 2012; Prevosti et al. 2012b), and a variety of birds, large terrestrial crocodiles (Sebecidae), giant snakes morphological adaptations to carnivory, reaching extreme (Madtsoiidae) and, in the last part of the Tertiary, with pla- morphotypes such as the sabertoothed Thylacosmilus atrox cental carnivores (Carnivora) (Simpson 1950, 1980; Patterson (Marshall 1977a; Goin & Pascual 1987; Argot 2004a; Fora- & Pascual 1972; Reig 1981; Gasparini 1984; Albino 1996; siepi & Carlini 2010; Prevosti et al. 2010; Engelman & Croft Pascual 2006; Forasiepi et al. 2007; Riff et al. 2010; Prevosti 2014; Ercoli et al. 2014; Forasiepi et al. 2014). The strati- & Soibelzon 2012; Prevosti et al. 2012a, b). The Sparasso- graphic range of Sparassodonta goes from early Paleocene Downloaded6 2017 from Thehttps://www.cambridge.org/core Royal Society of Edinburgh.. IP address: doi:10.1017/S1755691016000190 170.106.40.139, on 25 Sep 2021 at 19:02:43, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. https://doi.org/10.1017/S1755691016000190 278 SEBASTIAN ECHARRI ET AL. (Tiupampan age, Q64–62 Ma) to middle Pliocene (Chapadma- 2D geometric morphometric methods and multivariate techni- lalan Age, Q3.3 Ma), reaching their acme, with eleven species, ques in a wide sample of extant species to infer dietary habits during the late early Miocene (Santacrucian Age, 18–16 Ma) in Sparassodonta species, in particular in santacrucian taxa. (Sinclair 1906; Argot 2004c; Forasiepi 2009; Prevosti et al. We also compared our results with previous dietary inferences 2012b). (e.g., Wroe & Milne 2007; Goswami et al. 2011), especially Most species of Sparassodonta are only known from iso- with those based on dental anatomy (Marshall 1977a, 1978, lated teeth or fragmentary mandibles, so previous authors 1979, 1981; Prevosti et al. 2013; Zimicz 2014). Finally, we dis- made inferences of their diet by comparing the dentition of cuss the implications of our results for the evolutionary history sparassodonts with that of living mammal carnivores (e.g., of the Sparassodonta. Marshall 1978). The dentition of sparassodonts is extremely specialised towards a carnivorous diet (Muizon & Lange- Badre´ 1997), but variations in tooth morphology suggest dif- ferences in the type of food ingested (Marshall 1977a, 1978, 1. Materials and methods 1979, 1981). In genera where the skull and mandible are pre- served (e.g., Cladosictis, Borhyaena, Prothylacinus), morpho- 1.1. Materials and taxonomic sample logical differences lead to infer different biting capabilities. The dataset studied included a total of 498 mandibles belong- Additionally, postcranial evidence suggests a diversification ing to 142 species of extant marsupials (Dasyuromorphia, of hunting and preying behaviours (Argot 2003a, b, 2004c; Didelphimorphia, Peramelemorphia and Microbiotheria) and Blanco et al. 2011). placental carnivores (Carnivora), in addition to the 35 fossil Sparassadonta is divided in two main clades, Hathliacynidae specimens belonging to 15 species of Sparassodonta (Supple- and Borhyaenoidea (see Forasiepi 2009). Hathliacynids include mentary file 1). For extant taxa, only adult specimens with small to medium-sized sparassodonts (e.g., Cladosictis and fully erupted dentition were included and, when possible, we Sipalocyon), most of them with scansorial habits, with pseudo- tried to sample an equal number of males and females, up to opposable pollex that enabled manipulative behaviour, and six per species. For extinct taxa, we included specimens with a generalised carnivorous dentition (Argot 2003b, 2004c; fully erupted dentition and no evident deformation; fragmen- Forasiepi 2009; Ercoli et al. 2012; Prevosti et al. 2012b, 2013; tary material was included as long as all landmarks could be Zimicz 2014). Cladosictis patagonica has been considered as identified. Mandibles were photographed aligning the medial having the most specialised dentition among hathliacynids, surface of the mandible resting on the table or camera stand adapted toward hypercarnivory; however, it seems to be a base. The sparassodont species included in this study belong species with a weak bite force when compared with other to the family Hathliacynidae Ameghino, 1894, and the super- marsupials, suggesting that they only preyed on small vertebrates family Borhyaenoidea Simpson, 1930 (systematic arrangement and perhaps had a more omnivorous diet (Blanco et al. 2011). after Forasiepi 2009) (Supplementary file 1). Borhyaenoids are medium to large sized, and morphologically Since we analysed lower carnassial morphology (i.e., trigonid/ more diverse than the other clade, with most of the species talonid development of m1 in Carnivora and m4 in marsupials), showing a specialised diet towards hypercarnivory. Basal borh- we did not include taxa with reduced dentition and no carnas- yaenoids, such as Prothylacynus and Lycopsis, were considered sials (e.g., the living Pinnipedia, Proteles). The lower fourth omnivores or mostly omnivores (Marshall 1977a, b, 1978, molar (m4) of metatherians was chosen as an analogue of the 1979, 1981), although their dental morphology, stomach con- carnivore m1 because it usually presents the more carnassial- tents remains (in the case of Lycopsis longirostrus) and the like shape, is placed closest to the condyle and, from a biome- architecture of the postcranial skeleton suggests a more active chanical point of view, it is in the ‘correct’ to be an analogue predation (Marshall 1977b; Argot 2003a, 2004a, c). Proborhyae- for a carnassial in an adult marsupial (see Werdelin 1986, nidae (Proborhyaena, Arminiheringia and Callistoe) represent 1987; Jones 2003; Prevosti et al. 2012a). mostly a pre-Miocene radiation of hypercarnivore borhyaenoids We classified the species according to their diet (Supple- (Marshall 1978), some of them considered as the largest
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